Strength, reliability and durability are the requirements that must be met by any products, devices and structures. Significant material losses or even threats to human health and life may come because of non-fulfillment of these requirements. The destruction of a pedestrian bridge in Mykolayiv (Ukraine) and a bridge over the Morandi River in Tuscany (Italy), a crack in the supports of a Shinkansen high-speed train (Japan) are examples of recent years. Destruction, both due to excessive loads and due to wear and tear, is a natural process. Cities, planes or cars do not avoid it. What can be done to prevent destruction and how to increase the reliability and durability of technical facilities? Strength engineers know the answer to this question. Their knowledge, skills and experience are needed in all fields of technology and production. You can become a strength engineer by graduating from the Mechanical Engineering Institute of KPI. Igor Sikorsky, majoring in 131 Applied Mechanics in the educational program "Dynamics and Strength of Machines".
Compliance with European educational standards of the educational program "Dynamics and strength of machines" is confirmed by a certificate of European accreditation. After all, together with Progrestech-Ukraine Ltd, we became the first in the Ukraine, who made a tandem of a technical university and a high-tech engineering company to achieve the best educational outcomes.
This is an important advantage for. Boeing, Airbus, Firefly, Antonov, Civil Aviation Plant 410, Pivdenne Design Bureau, Pivdenmash other are large international and Ukrainian aviation and space companies and machine-building and nuclear power plants are among our employers. The constant increase in the level of complexity and requirements for technical facilities creates broad prospects for the demand for strength engineers in the labor market.s
Educational program "Dynamics and strength of machines" provides:
- Study of methods and means of research of dynamics and durability of machines and designs of various industries;
- Mathematical and computer modeling of behavior of technical systems under static and dynamic loads, prediction of their reliability and durability;
- Study of regularities, dynamic processes, stress state and strength of machines by methods of mechanics, numerical mathematics;
- Сomputer modeling of stress-strained state, stability and dynamic processes of mechanical systems and objects.